Implements or apparatus for applying pushing or pulling force – Apparatus for hauling or hoisting load – including driven... – Device includes rotatably driven – cable contacting drum
Reexamination Certificate
2001-05-09
2003-03-25
Marcelo, Emmanuel (Department: 3653)
Implements or apparatus for applying pushing or pulling force
Apparatus for hauling or hoisting load, including driven...
Device includes rotatably driven, cable contacting drum
Reexamination Certificate
active
06536743
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to the deployment and recovery of underwater equipment; particularly to the management of umbilical cables attached thereto; and more particularly to effective traversal of umbilical cables enshrouded with one or more means for flotation.
BACKGROUND OF THE INVENTION
Remotely Operated Vehicles (ROV) are unmanned, robotic submarines capable of operating at ocean depths of up to 10,000 ft. These vehicles are constantly increasing in capabilities, size and horse power, necessary for advanced research and/or working projects. The vehicles are linked to the surface vessel by use of an umbilical cable which provides electrical power, video feed and a structural tie to the recovery vehicle. With the increasing capabilities of these systems, the umbilical cable's strength had to be increased resulting in an increase in weight. This umbilical cable weight is a problem for the operation of the vehicle as it restricts mobility (an in water weight of 20,000 lbs is typical at 10,000′ depth). To compensate for the increase in weight, operators may clamp on large high-density foam floats to the cable roughly every 40′ for the first 500′. This results in the cable being neutrally buoyant the first 500′ of umbilical cable allowing the ROV to have a 500′ radius to operate in free of restriction. These floats have historically been applied manually by deck. Currently, a deckhand has to reach over the side of a vessel, grab the umbilical cable, pick up a 60 lb (air weight) float and clamp it on the umbilical cable with mechanical clamps. If the ship is heaving, this becomes a very dangerous and painstakingly slow procedure. When the vehicle is being recovered, these floats must be removed as they will not fit through the sheaves and/or wind onto the umbilical cable winch drum. There has never been an automated method developed for this process and manual methods are still being used today.
A known float system employs the use of clamps to affix segments of flotation material to the umbilical cable starting at the ROV and continuing up the umbilical cable to the required length. This flotation device, marketed under the name LINKSYN is interlocked by segments in a fashion similar to the vertebrae in one's back-bone, allowing the flotation to stay on the umbilical cable. Each segment is approximately 10″ in diameter and 12″ long. This type of umbilical cable flotation, or any fixed umbilical cable flotation of similar construction, reduces or eliminates the dangerous handwork required with the prior art systems during launch and recovery. However, problems arise in utilizing a standard docking head, which now has to handle two cable diameters. For example, a first umbilical cable diameter, roughly 1.5″ in diameter), and a second flotation diameter of approximately 11 inches, may be routed through the docking head. This shift in diameter causes the umbilical cable centerline to rise roughly 5″ on the sheave radius causing the latch and bell mouth alignment to be thrown out to a point where they will not function without jamming.
DESCRIPTION OF THE PRIOR ART
U.S. Pat. No. 5,655,753 discloses a marine seismic cable deployment and retrieval system for utilization in conjunction with a marine vessel. The patent teaches a large wheel mounted in the front of the vessel for retrieving seismic cable from the water, and a horizontally mounted cable handler comprising an eight wheel cable puller for pulling the cable, the cable puller comprising four pairs of tires in frictional, rotational contact with one another along their outer surfaces configured to frictionally grab and pull a seismic cable along a linear path. A smaller rear cable puller further urges the cable to the rear of the vessel, and down into the main deck via a chute arrangement. The cable pullers of the present invention contemplate the utilization of relatively oversized, under-inflated tires to allow for a softer, increased frictional contact with the cable, while allowing for the tires to “give” with the passage of cable connectors therethrough, which typically have a greater diameter than the cable, allowing for full, real-time cable retrieval. The present system further contemplates a trolley assembly/floating cable puller system for deploying the cable into the main deck for installation, as well as deploying the cable to sea, which trolley system includes a floating cable wheel puller arrangement having movement on both the longitudinal and transverse axes of the vessel, allowing flexible placement of the cable in the main deck area.
U.S. Pat. No. 5,199,659 discloses a marine cable retrieval apparatus for retrieving marine seismic cable on board a ship which reduces longitudinal tension force on the cable at the cable storage reel when the cable storage reel (drum) is winding up the cable. Marine cable is subject to a tension force which can damage the marine cable when it is placed on a storage reel. The apparatus of this application reduces the tension on a portion of marine cable so that the portion can be retrieved upon a storage reel. The apparatus includes a collar attached to the marine cable and a cable retrieval tool which is placed around the marine cable. The cable retrieval tool has a biasing mechanism which will allow the tool to pass over the collar attached to the marine cable when it is moving away from the ship, but when it is moving toward the ship the biasing mechanism will engage the collar. The cable retrieval tool exerts an opposing force on the collar to the longitudinal tension force on marine cable trailing behind the collar. This reduces the longitudinal tension force on a portion of cable between the cable retrieval tool and the cable storage reel. The cable storage reel can then wind up the portion of cable with a reduced longitudinal tension on the cable at the cable storage reel.
U.S. Pat. No. 5,197,716 provides a marine cable deployment apparatus for deploying marine seismic cable from a ship which reduces tension force on the cable at the cable storage reel when the cable storage reel (drum) is winding out the cable. Marine cable is subject to a longitudinal tension force which can damage the marine cable when it is deployed from a storage reel. The apparatus of this application reduces the longitudinal tension force on a portion of marine cable so that the portion of cable can be deployed from a storage reel. The apparatus includes a collar attached to the marine cable and a cable deployment tool which is placed around the marine cable. The cable deployment tool has dogs which engage the collar and a locking ring which holds the dogs in place. The cable is deployed with the deployment tool accompanying the deployed cable. A line between the deployment tool and the ship provides an opposing force to the longitudinal tension force on the cable trailing behind the collar. After the portion of cable is deployed the opposing force on the cable retrieval tool is reduced to a point that the deployed portion of cable assumes the longitudinal tension force on the cable trailing behind the collar. The tension on the line is released. The locking ring slides back on the deployment tool releasing the dogs from the collar. The deployment tool is pulled back along the cable to the ship to attach to the next portion of cable to be deployed.
U.S. Pat. No. 4,828,223 teaches a cable handling apparatus which draws in a cable, such as a seismic streamer, along a generally linear path and feeds the cable to a winch which winds in the cable from the apparatus under constant tension.
U.S. Pat. No. 4,795,108 teaches a level wind system suitable for winding an elongated sonar array onto and off from a storage drum and includes a guide member which guides the array into a counterbalanced free pivoting arm having a large radius arcuate section terminating substantially in tangential relationship to said drum and which uses the tension force on the array to continually reposition itself relative to each previous wrap on
Janac David
Janac Joe
Selcer Toby
Dynacon, Inc.
Marcelo Emmanuel
McHale & Slavin P.A.
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